Nitrogen grain-boundary passivation of In-doped ZnO transparent conducting oxide

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Ali, D., Butt, M.Z., Coughlan, C., Caffrey, D., Shvets, I.V. & Flesicher, K., Nitrogen grain-boundary passivation of In-doped ZnO transparent conducting oxide, PHYSICAL REVIEW MATERIALS, 2, 2018, 043402

Abstract

We have investigated the properties and conduction limitations of spray pyrolysis grown, low-cost transparent conducting oxide ZnO thin films doped with indium. We analyze the optical, electrical, and crystallographic properties as functions of In content with a specific focus on postgrowth heat treatment of these thin films at 320∘C in an inert, nitrogen atmosphere, which improves the films electrical properties considerably. The effect was found to be dominated by nitrogen-induced grain-boundary passivation, identified by a combined study using in situ resistance measurement upon annealing, x-ray photoelectron spectroscopy, photoluminescence, and x-ray diffraction studies. We also highlight the chemical mechanism of morphologic and crystallographic changes found in films with high indium content. By optimizing growth conditions according to these findings, ZnO:In with a resistivity as low as 2×10−3Ωcm, high optical quality (T≈90%), and sheet resistance of 32Ω/□ has been obtained without any need for postgrowth treatments.

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Sponsor: Science Foundation Ireland (SFI)
Grant Number: 12/IA/1264

Author's Homepage: http://people.tcd.ie/fleisck
Type of material: Journal Article